%0 Journal Article %A Kim, Yeonwoo %A Yang, Sena %A Jeon, Eun %A Baik, Jaeyoon %A Kim, Namdong %A Kim, Hyun %A Lee, Hangil %D 2016 %T Additional file 1: of Enhancement of Photo-Oxidation Activities Depending on Structural Distortion of Fe-Doped TiO2 Nanoparticles %U https://springernature.figshare.com/articles/journal_contribution/Additional_file_1_of_Enhancement_of_Photo-Oxidation_Activities_Depending_on_Structural_Distortion_of_Fe-Doped_TiO2_Nanoparticles/4674547 %R 10.6084/m9.figshare.c.3698323_D1.v1 %2 https://springernature.figshare.com/ndownloader/files/7627870 %K Distorted TiO2 %K 2-Aminothiophenol %K Photo-oxidation %K Bandgap narrowing %X Supplementary material. Digital images and SEM images of Fe@TiO2 nanoparticles, XRD, and Raman intensity plot. Figure S1. Digital images of the Fe@TiO2 dispersed solution with several of Fe dopant concentration. Figure S2. SEM images as the morphologies varying the doping level of Fe: (a) 1 wt %, (b) 3 wt %, (c) 5 wt %; and their high-resolution images (a′), (b′), and (c′), respectively. Figure S3. EDX spectra with Fe peak (marked by black arrows) of big particles: (a) 1 wt% Fe@TiO2, (b) 3 wt% Fe@TiO2, and (c) 5 wt% Fe@TiO2. Figure S4. (a) XRD peak position and correspond lattice constant of (101) plane of anatase TiO2 structure and (b) Raman intensity ratio of I410 (α-Fe2O3 Eg) to I144 (anatase TiO2 Eg). Figure S5. Spectral subtraction of valence band spectra by bare TiO2 peak: (a) 1 wt% Fe@TiO2, (b) 3 wt% Fe@TiO2, and (c) 5 wt% Fe@TiO2. %I figshare